Potassium Intermediate/small Conductance Calcium-Activated Channel, Subfamily N, Member 2 (KCNN2) Kits ELISA

Action potentials in vertebrate neurons are followed by an afterhyperpolarization (AHP) that may persist for several seconds and may have profound consequences for the firing pattern of the neuron. De plus, nous expédions KCNN2 Anticorps (46) et KCNN2 Protéines (3) et beaucoup plus de produits pour cette protéine.

list all ELISA KIts Gène GeneID UniProt
KCNN2 3781 Q9H2S1
Anti-Souris KCNN2 KCNN2 140492 P58390
Anti-Rat KCNN2 KCNN2 54262 P70604
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Top KCNN2 Kits ELISA sur anticorps-enligne.fr

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Catalogue No. Reactivité Sensibilité Gamme Images Quantité Fournisseur Livraison Prix Détails
Humain 0.059 ng/mL 0.15 ng/mL - 10 ng/mL 96 Tests Connectez-vous pour afficher 13 to 16 Days
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  10 reactions Connectez-vous pour afficher 4 to 6 Days

Plus Kits ELISA pour KCNN2 partenaires d'interaction

Human Potassium Intermediate/small Conductance Calcium-Activated Channel, Subfamily N, Member 2 (KCNN2) interaction partners

  1. SK current is increased via the enhanced activation of CaMKII in patients with atrial fibrillation.

  2. Study establishes the distribution profile of SK2 channel protein in human brain.The expression of SK2 human isoform b in brain could explain the variability of electrophysiological findings observed with SK2 channels.

  3. These results provide new insights into the regulation of SK2 channel trafficking by the cytoskeletal proteins FLNA and alpha-actinin2, involving distinct recycling pathways

  4. There was a significant association between the KCNN2 variants and clinically significant VTa. These findings suggest an association between KCNN2 and VTa; it also appears that KCNN2 variants may be adjunctive markers for risk stratification in patients susceptible to SCD.

  5. The ER SK2 channel activation preserves ER Ca(2+) uptake and retention which determines cell survival in conditions where sustained ER stress contributes to progressive neuronal death.

  6. Differentiated dopaminergic neurons expressed low levels of SK2 channels and high levels of SK1 and SK3 channels.

  7. KCNN2 gene can have an important role in the development of coronary artery aneurysms in Kawasaki disease.

  8. Increase in both Ca(2+) sensitivity and SK2 protein expression contributes to the IKAS upregulation in failing human ventricles.

  9. Decreased expression of small-conductance Ca2+-activated K+ channels SK1 and SK2 in human chronic atrial fibrillation

  10. RT-PCR analysis showed strong expression of SK2 mRNA in the normal human colon.

  11. Because of the marked differential expression of SK2 channels in the heart, specific ligands for Ca2+-activated K+ currents may offer a unique therapeutic opportunity to modify atrial cells without interfering with ventricular myocytes

  12. SK2 plays an important role in mediating the increase in transepithelial secretion due to increases in intracellular Ca 2+. SK2 channels, therefore, may represent a target for pharmacologic modulation of bile flow.

  13. The subtype SK2 channels were up-regulated under hypoxia, shown with pharmacological tools and with mRNA analysis.

  14. Functions of SK2 channels in atrial myocytes are critically dependent on the normal expression of Ca(v)1.3 Ca(2+) channels.

  15. Results suggest that SK2-channel activation may largely contribute to the sustained Ca2+ influx in the G0/G1 phase in comparison of that in the G2/M phase in Jurkat T-lymphocytes.

  16. Present study directly defines the functional roles of SK2 channels in transgenic mice using a genetically engineered model, and provides a possible link between abnormalities in cardiac SK2 channels and cardiac arrhythmias.

  17. demonstrate that proper membrane localization of a small-conductance Ca(2+)-activated K(+) channel (SK2 or K(Ca)2.2) is dependent on its interacting protein, alpha-actinin2, a major F-actin crosslinking protein.

Mouse (Murine) Potassium Intermediate/small Conductance Calcium-Activated Channel, Subfamily N, Member 2 (KCNN2) interaction partners

  1. SK2 channels regulate mitochondrial respiration and mitochondrial Ca(2+) uptake.

  2. Probing the responsible cellular mechanisms pinpoints a disturbance in the expression and function of small-conductance Ca(2+)-activated K(+) (SK) channels and reveals an important role for both SK2 and SK3 channels in normal regulation of serotinin (5-HT) neuronal excitability.

  3. SK2 is nuclear in primary neurons and, unexpectedly, overexpressed SK2 is neurotoxic in a dose-dependent manner.. We also found that SK2 is hyperphosphorylated in the brain samples from a model of HD, the BACHD mice.Our results identify a novel regulator of mutant huntingtin-mediated neurotoxicity and provide a new target for developing developing therapies for Huntington disease

  4. Thus, MPP2 is a novel synaptic scaffold that is required for proper synaptic localization and function of SK2-containing channels.

  5. In addition to a well-established role for KCa2.x channels in migration, blockade of these channels was potently cytotoxic in breast cancer cell lines.

  6. Atrial SK2 and SK3 are significantly down-regulated from accelerated turnover in diabetic mice, resulting in action potential prolongation and arrhythmias.

  7. enhanced SK2 channel control over NMDAR contributes to LTP impairment via increased PP2A activity following context dependent sensitization to morphine.

  8. This study reveleated that outer hair cells of SK2 knockout mice had few small efferent terminals. Synaptic cisterns were present, but smaller than those of wild-type littermates.

  9. SK2 and SK3 channels are expressed in different populations of motoneurons in rats and mice but not in cats

  10. Mitochondrial small conductance SK2 channels prevent glutamate-induced oxytosis and mitochondrial dysfunction.

  11. Virtually all Cav2.1 clusters are colocalized in Purkinje cells with two types of calcium-activated potassium channels, SK2 and BK.

  12. A developmental increase and gradient in SK2-containing channel surface expression is found that underlie the influence on neurotransmission.

  13. Sleep spindle occurrence is shaped by SK2-channel-mediated repetitive reticular thalamic nucleus neuron bursting & contributes to augmented NREMS consolidation & arousal threshold.

  14. Long-lasting plasticity of intrinsic excitability in dendrites results from changes in the gain of the SK2 channel regulatory mechanism of neurons.

  15. increasing SK2 channel activity, or preventing ischemia-induced loss of synaptic SK2 channels, are promising and novel approaches to neuroprotection following cerebral ischemia

  16. Results indicate that SK2-L directs synaptic SK2-containing channel expression and is important for normal synaptic signaling, plasticity and learning.

  17. Thus, SK2-sh as a downstream target of cytokines, provide a promising target for additional investigation regarding potential therapeutic intervention.(SH2-SH PROTEIN, MOUSE)

  18. These data indicate an abnormal expression of SK channels and a possible dysfunction of these channels in pilocarpine-treated epileptic rats.

  19. Under basal conditions SK2 channels do not undergo rapid recycling and are present within the spine in a population of endosomes distinct from alpha-amino-3-hydroxyl-5-methyl-4-isoxazole-propionate receptors (AMPARs).

  20. SK1, -2, -3, and IK1 (SK4) are expressed in islet cells and insulin-secreting cells and are able to influence glucose-induced calcium responses, thereby regulating insulin secretion.

KCNN2 profil antigène

Antigen Summary

Action potentials in vertebrate neurons are followed by an afterhyperpolarization (AHP) that may persist for several seconds and may have profound consequences for the firing pattern of the neuron. Each component of the AHP is kinetically distinct and is mediated by different calcium-activated potassium channels. The protein encoded by this gene is activated before membrane hyperpolarization and is thought to regulate neuronal excitability by contributing to the slow component of synaptic AHP. The encoded protein is an integral membrane protein that forms a voltage-independent calcium-activated channel with three other calmodulin-binding subunits. This gene is a member of the KCNN family of potassium channel genes. Two transcript variants encoding different isoforms have been found for this gene.

Gene names and symbols associated with KCNN2

  • potassium calcium-activated channel subfamily N member 2 (KCNN2) anticorps
  • potassium intermediate/small conductance calcium-activated channel, subfamily N, member 2 (Kcnn2) anticorps
  • potassium calcium-activated channel subfamily N member 2 (Kcnn2) anticorps
  • fri anticorps
  • hSK2 anticorps
  • KCa2.2 anticorps
  • KCNN2 anticorps
  • SK2 anticorps
  • SKCA2 anticorps
  • SKCa 2 anticorps

Protein level used designations for KCNN2

potassium intermediate/small conductance calcium-activated channel, subfamily N, member 2 , small conductance calcium-activated potassium channel protein 2 , small-conductance calcium-activated potassium channel , apamin-sensitive small-conductance Ca2+-activated potassium channel , small conductance potassium channel type 2 , SKCa 2 , small conductance calcium-activated potassium channel subfamily N member 2 , SK2 , SKCa2 , small conductance calcium-activated channel, subfamily N, member 2

695374 Macaca mulatta
100016183 Monodelphis domestica
100172000 Pongo abelii
100230275 Taeniopygia guttata
100589687 Nomascus leucogenys
395579 Gallus gallus
3781 Homo sapiens
474640 Canis lupus familiaris
404177 Bos taurus
140492 Mus musculus
54262 Rattus norvegicus
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